Amanda::Config - access to Amanda configuration parameters
use Amanda::Config qw( :init :getconf );
my $config_name = shift @ARGV;
config_init($CONFIG_INIT_EXPLICIT_NAME, $config_name);
apply_config_overrides($config_overrides);
my ($cfgerr_level, @cfgerr_errors) = config_errors();
if ($cfgerr_level >= $CFGERR_WARNINGS) {
config_print_errors();
if ($cfgerr_level >= $CFGERR_ERRORS) {
die("errors processing config file");
}
}
print "tape device is ", getconf($CNF_TAPEDEV), "\n";
This API closely parallels the C API. See conffile.h for details on the configuration parameter constants.
The Amanda configuration is treated as a global state for the application. It is not possible to load two configurations simultaneously.
All initialization-related symbols can be imported with the tag
:init.
The Amanda configuration is loaded with the aptly named
config_init($flags, $name). Because of the great variety in
invocation method among Amanda applications, this function has a number
of flags that affect its behavior. These flags can be OR'd together.
CONFIG_INIT_EXPLICIT_NAME is given, then the $name parameter can
contain the name of a configuration to load. Note that if the parameter is
".", this is equivalent to CONFIG_INIT_USE_CWD.
CONFIG_INIT_USE_CWD is given, and if the current directory
contains amanda.conf, then that file is loaded.
CONFIG_INIT_CLIENT is given, then a client configuration
is loaded.
CONFIG_INIT_OVERLAY is given, then any existing
configuration is not reset.
See conffile.h for more detailed information on these flags and
their interactions.
config_uninit() reverses the effects of config_init. It is
not often used.
Once the configuration is loaded, the configuration name
(e.g., ``DailySet1''), directory (/etc/amanda/DailySet1),
and filename (/etc/amanda/DailySet1/amanda.conf) are
available from get_config_name(), get_config_dir(), and
get_config_filename(), respectively.
This module collects configuration errors and warnings in a list, and also
tracks the overall error level with an enumeration: $CFGERR_OK,
$CFGERR_WARNINGS, and $CFGERR_ERRORS. config_init and
apply_config_overrides both return the current level. The level and the
list of error messages are available from config_errors:
my ($cfgerr_level, @errors) = Amanda::Config::config_errors();
As a convenience, config_print_errors will print all error messages to
stderr. The error state can be cleared with config_clear_errors.
Most Amanda applications accept the command-line option -o
to ``overwrite'' configuration values in amanda.conf. In Perl
applications, these options should be parsed with Getopt::Long, with
the action being a call to add_config_override_opt. For example:
my $config_overrides = new_config_overrides($#ARGV+1);
GetOptions(
# ...
'o=s' => sub { add_config_override_opt($config_overrides, $_[1]); },
) or usage();
my $cfg_ok = config_init($CONFIG_INIT_EXPLICIT_NAME | $CONFIG_INIT_USE_CWD, $config_name);
apply_config_overrides($config_overrides);
new_config_overrides($size_estimate) creates a new
overwrites object, using the given size as an estimate of
the number of items it will contain ($#ARGC/2 is a good
estimate). Individual configuration options are then added via
add_config_override($co, $key, $value) (which takes a key/value
pair) or add_config_override_opt($co, $optarg), which parses a
string following -o on the command line.
Once the overwrites are gathered, they are applied with
apply_config_overrides($co), which applies the overwrites to the
active configuration. No further operations can be performed on the
overwrites object after apply_config_overrides has been called.
The utility function get_config_options() returns a list of
command-line arguments to represent any overwrites that were used
to generate the current configuration. (TODO: this function isn't
available yet)
Amanda configurations consist of ``global'' parameters and several sets of ``subsections'' -- one set for dumptypes, one for tapetypes, and so on.
All of the global parameters are represented by a constant beginning with
$CNF_, e.g., $CNF_LABELSTR. The function getconf($cnf) returns the
value of parameter $cnf, in whatever format is appropriate for the parameter
(see DATA FORMATS, below). getconf_seen($cnf) returns a true value if
$cnf was seen in the configuration file. If it was not seen, then it will
have its default value. getconf_linenum($cnf) returns the line number in
the configuration file where it is set, 0 if it is not in a configuration file,
or -2 if it is set in a command line argument.
Some parameters have enumerated types. The values for those
enumerations are available from this module with the same name as
in conffile.h. For example, $CNF_TAPERALGO will yield a value
from the enumeration taperalgo_t, the constants for which all
begin with $ALGO_. See conffile.h for the details.
Each subsection type TYP has the following functions:
lookup_TYP($subsec_name)
which returns an opaque object
($ss) representing the subsection, or undef if no subsection
with that name exists;
TYP_name($ss)
returning the name of the subsection;
TYP_getconf($ss, $cnf)
which fetches a parameter value from $ss; and
TYP_seen($ss, $cnf)
which returns a true value if <$cnf> was seen in the subsection.
The subsections are:
tapetype
with constants beginning with $TAPETYPE_
dumptype
with constants beginning with $DUMPTYPE_
interface
with constants beginning with $INTER_
holdingdisk
with constants beginning with $HOLDING_
application
with constants beginning with $APPLICATION_
script
with constants beginning with $PP_SCRIPT_
device
with constants beginning with $DEVICE_CONFIG_.
changer
with constants beginning with $CHANGER_CONFIG_.
See conffile.h for the names of the constants themselves.
Each configuration parameter has a ``conftype'', as assigned in
common-src/conffile.c. The translation of most of these types into Perl
values is straightforward:
CONFTYPE_INT Math::BigInt CONFTYPE_INT64 Math::BigInt CONFTYPE_REAL floating-point value CONFTYPE_STR string CONFTYPE_IDENT string CONFTYPE_TIME Math::BigInt (epoch value) CONFTYPE_SIZE Math::BigInt CONFTYPE_BOOLEAN Math::BigInt CONFTYPE_COMPRESS Math::BigInt CONFTYPE_ENCRYPT Math::BigInt CONFTYPE_HOLDING Math::BigInt CONFTYPE_ESTIMATELIST [ Math::BigInt, .. ] CONFTYPE_STRATEGY Math::BigInt CONFTYPE_TAPERALGO Math::BigInt CONFTYPE_PRIORITY Math::BigInt CONFTYPE_RATE float, float CONFTYPE_INTRANGE Math::BigInt, Math::BigInt CONFTYPE_APPLICATION string CONFTYPE_EXECUTE_ON string CONFTYPE_EXECUTE_WHERE Math::BigInt CONFTYPE_SEND_AMREPORT_ON Math::BigInt CONFTYPE_IDENTLIST [ string, .. ]
Note that CONFTYPE_INTRANGE and CONFTYPE_RATE each return two values, not
an array reference.
Include and exclude lists with type CONFTYPE_EXINCLUDE return a hash giving
all listed filenames (in the list key), include/exclude files (files),
and a boolean indicating that the list is optional (optional):
{ list => [ str, .. ], file => [ str, .. ], optional => Math::BigInt }
Properties are represented as a hash of hashes. The keys are the property
names, converted to ASCII lowercase. Each property has a values array
giving all values specified for this property, as well as booleans priority
and append that are true if the corresponding keyword was supplied.
{ prop1 => { values => [ str, .. ] priority => int, append => int },
prop2 => { .. } .. }
Note that integer types of all sizes become Math::BigInt objects rather than
Perl integers, as is the habit throughout Amanda.
The CNF_AUTOLABEL value is a hash with the following keys
template label template, or undef other_config boolean non_amanda boolean volume_error boolean empty boolean
Parameter values are available by name from getconf_byname($name) and
getconf_byname_strs($name, $str_needs_quotes). These functions implement
the TYP:NAME:PARAM syntax advertised by amgetconf to access values in
subsections. The first function returns a Perl value (see DATA FORMATS,
above), while the second returns a list of strings suitable for use in
amanda.conf, including quotes around strings if $str_needs_quotes is
true.
getconf_list($typ) returns a list of the names of all subsections of the
given type. %subsection_names is a hash whose keys are allowed subsection
names.
The $CNF_DISPLAYUNIT implies a certain divisor to convert from
kilobytes to the desired unit. This divisor is available from
getconf_unit_divisor(). Note carefully that it is a divisor
for a value in kilobytes!
Finally, various subsections of Amanda enable verbose debugging via
configuration parameters. The status of each parameter is available
a similarly-named variable, e.g., $debug_auth.
All parameter access functions and constants can be imported with
the tag :getconf.
These functions defy categorization.
The function config_dir_relative will interpret a path relative to
the current configuration directory. Absolute paths are passed through
unchanged, while relative paths are converted to absolute paths.
dump_configuration() dumps the current configuration, in a format
suitable for re-evaluation for this module, to standard output.
This function may be revised to return a string.
Several parts of Amanda need to convert unit modifier value like
``gbytes'' to a multiplier. The function find_multiplier($str)
returns the unit multiplier for such a string. For example, ``mbytes''
is converted to 1048576 (1024*1024).
string_to_boolean() takes a string and returns 0 if it matches any of
Amanda's names for false, or 1 if matches a name for true. If it can't be
interpreted, undef is returned.
This page was automatically generated Thu Nov 25 19:55:12 2010 from the Amanda source tree, and documents the most recent development version of Amanda. For documentation specific to the version of Amanda on your system, use the 'perldoc' command.